The Principles of the Solution of the Senate-house 'riders,' Exemplified by the Solution of Those Proposed in the Earlier Parts of the Examinations of the Years 1848-1851Macmillan & Company, 1851 - 116 sider |
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Side 46
... equilibrium . We must therefore suppose the string BP placed in such a position that it shall pass through O the intersection of AR and WG pro- duced . When this is done , all the statical conditions have been brought in , and the ...
... equilibrium . We must therefore suppose the string BP placed in such a position that it shall pass through O the intersection of AR and WG pro- duced . When this is done , all the statical conditions have been brought in , and the ...
Side 47
... equilibrium would not exist . We have now the rigid body CD acted on by two forces F and R , whose directions pass through A ; the force ( P ) therefore which , acting at D , is to preserve the equilibrium , must , by ( 4 ) , also pass ...
... equilibrium would not exist . We have now the rigid body CD acted on by two forces F and R , whose directions pass through A ; the force ( P ) therefore which , acting at D , is to preserve the equilibrium , must , by ( 4 ) , also pass ...
Side 48
... equilibrium of a body which has one or more points in contact with a smooth plane , and is acted on by any forces . ( B ) . A triangular board of given weight rests in equi- librium with its base on a horizontal plane sufficiently rough ...
... equilibrium of a body which has one or more points in contact with a smooth plane , and is acted on by any forces . ( B ) . A triangular board of given weight rests in equi- librium with its base on a horizontal plane sufficiently rough ...
Side 53
... equilibrium of the particle O ( fig . 41 ) we have , by the same method as is pursued in ( 4 ) , R = W.cosa ( 1 ) . From the equilibrium of the wedge , observing that the effect of the particle resting on the wedge is to impress upon it ...
... equilibrium of the particle O ( fig . 41 ) we have , by the same method as is pursued in ( 4 ) , R = W.cosa ( 1 ) . From the equilibrium of the wedge , observing that the effect of the particle resting on the wedge is to impress upon it ...
Side 54
... equilibrium on the wheel and axle . ( B ) . If the axis about which the machine turns coincide with that of the axle , but not with the axis of the wheel , find the greatest and least ratios of the power and weight necessary for equilibrium ...
... equilibrium on the wheel and axle . ( B ) . If the axis about which the machine turns coincide with that of the axle , but not with the axis of the wheel , find the greatest and least ratios of the power and weight necessary for equilibrium ...
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The Principles of the Solution of Senate-house 'riders': Exemplified by the ... Francis James Jameson Uten tilgangsbegrensning - 1851 |
The Principles of the Solution of the Senate-House 'Riders: Exemplified by ... Francis J. Jameson Ingen forhåndsvisning tilgjengelig - 2018 |
The Principles of the Solution of the Senate-House 'Riders: Exemplified by ... Francis J. Jameson Ingen forhåndsvisning tilgjengelig - 2015 |
Vanlige uttrykk og setninger
AC² AN.NM Arithmetic arithmetical progression axis bisects body C₁ Cambridge centre of gravity chord CHURCHILL BABINGTON circle cloth cone Conic Sections conjugate hyperbola constant curvature curve cycloid describe diameter direction directrix distance drawn Edition ellipse equations equilibrium Fellow of St fluid focus geometrical given point Hence horizontal hyperbola inches inclined inscribed John's College joining latus-rectum least common multiple Lemma length locus meet mirror move number of seconds oscillation parabola parallel parallelogram particle perpendicular plane polygon pressure prop proportional proposition prove pullies quadrilateral quantity radius ratio rays rectangle refraction right angles sewed shew sides specific gravity spherical square straight line string surface tan² tangent triangle ABC Trinity College tube V₁ vary vertex vertical W₁ weight
Populære avsnitt
Side 4 - To divide a given straight line into two parts, so that the rectangle contained by the whole and one of the parts, shall be equal to the square of the other part.
Side 6 - The angle at the centre of a circle is double of the angle at the circumference upon the same base, that is, upon the same part of the circumference.
Side 11 - AB is a diameter, and P any point in the circumference of a circle; AP and BP are joined and produced if necessary ; if from any point C of AB, a perpendicular be drawn to AB meeting AP and .BP in points D and E respectively, and the circumference of the circle in a point F, shew that CD is a third proportional of CE and CF.
Side 9 - IF the angle of a triangle be divided into two equal angles, by a straight line which also cuts the base; the segments of the base shall have the same ratio which the other sides of the triangle have to one another...
Side 4 - In any right-angled triangle, the square which is described upon the side subtending the right angle, is equal to the squares described upon the sides which contain the right angle.